Ellurian.



Patented Feb. 6, 1900.

A. m; BAKER.

- TELLURIAH. (Application filed Apr. 26, 1899.)

2 Sheets-Sheet (No' Model.)

Wih cssgs d Feb.

Patents M. BAKER.

TELLUBIAN.

(No Model.)

i 5o. spondin'g PATENT O'r srcsg,

LB R 'hAKER, or LEXINGTON. KENTUCKY.-

L -.uiRiA N 1 -.S1EGIFICATIOR"'forrningpart er Lte rgr r a ml. assisted s ni u r e; eoe.

' Application filed April26318lllih To all whom it m'ay concern: V e I :Be it own that LA ERT 'MhBlKEk ai. citizen is the United States, residing at Lox; ington in the county of, Fayette and vState ofji 5:,Ke'ntucky; have invented a new and usefulj Tellurian, of which the following isja speciifcationj z My invention relates to telluriaus,'and has for its. object t-o- 'si'rnplify and improve the mechanism shown and described in my for-1 iner patent;.N0. 610,317, granted to me on September 6, 1898, the said mechanism being' designed for illustrating the movement of the .suiu-initsorbitandits axial rotat-ion, for-illustrating the diurnal. rotation of the earth and *itsmovement arou'nd'the s'un in its elliptical .orbit,- for illustrating the normal inclination of theearths axis to, the plane ofthe-ecliptic, fer illustrating the'axialrotation of "filial 110011: 20 and its movement around the earth and sun, for illustrating thevariation of the plane of the moons orbit from that of the. ecliptic and the variation of; theinclination of the gmtaons axiswith. relationto-that of the earth, land'forillustrating the location of the sun .in 1 the-11011119111 focus of the earths orbit.

1 Further objects and advantages of this in-.. vention will appearin the following descri ption, and the: novel featln es thereof. will be- 30 particularly peinted- .o'ut in the appended claims; I L z 1 In the drawings,- Figure Ll is aside view; -partly.in1section,of1a; tepllurian constructed in -accordancewith my'invention. Fig.2 is a, plan View ofthe same, showing in dotted lines the posltion's'of the parts when the-support fling-arm has made-a quarter-revolution from the,positionfillnstrated in full lines. Fig.' 3. is a detail sectional view of the mechanism for operating the supporting-arm andthe sungl'obe spindleand for'causing-the elliptical,

orbit of the earth'f Fig. 4 is a detail sectional I view of the mechanism arrangedat the outer" end of the orbital arm, Fig. 5 is a detail sec- 5, tionalview of the moon-globe-carrying collar and adjacent parts. Fig. {6 is asimi-lar' view of the'fslideand guide by whichvthe elliptical movement of the orbital arm is cansedr Similar reference characters indicate correparts in all the figures of the draw-. in gs.

- 1 designates basewhich is superficially being of 'sufiicient length to extenddownsms trainings on am";

' 3 inscribed ,or otherwiselm arlied' to represent fnclufding characters an elliptical zo'dia c 2,-

atepresen'ting periods of time, such as the sea 55 Leonel-the months, anddayafl; This-base may constitute the top of a, table having legs. or supportsl,.of chann el=i-ron or the equivalent thereof, removably attached at .-their. upper ends .to eleatsf l", also ofchannel-iron, and having terminalangularly-disposed portions 1; forming seats for-the receptionof the upper ends of thel-legs=or standards. In theconstruction illustrated said legs are secured -i the seatsby means'of bolts 1.

. f spending from the base at an interme-; diate point is a spindle .3,'upon which is fmo'mitedesleeneAs-on the adjaeenteend of-a supporting-arm 5, and this supporting-armis provided at its free endwith a vertical spindle,6,"which extends upward through a segmental'slot 7, formed in the base concentric with the spindle 3 anddesigned to allow a a limited oscillatory movement of the support-- ing-armr Fixed to the spindle 6 at its upper extremity is a sun-globe-supporting plate 8, provided with acollar 9.,having a set-screw 10 by which the plate may be locked in place tofollowthe movements of the spindle 6.; In; a bearing 11, formed near. the outer end of saidplate 8, is mounted thesun-globe spin- I dle 12,- having acollar13, held in place by a set-screw 14 and adapted to bear 1 0 1 the upper-end of the bearing 11 to prevent dowry ward axial displacement ofthe spindle. The sun-globe 15 is provided with a collar 16, fitted npon thegupper ends of the sun-globe spindle and provided with aset-screw 17, by .whichit may be secured inplace, To the lower end of the sun-globe spindlei's aflixed a pulley 18; connectedby a belt-19 or other endless connection with a pulley 20, arranged concentric with the spindle 6. 'lo'conceal' the pulleys and bolt, the snn globe-support- 7 ing plate 8' is provided near its periphery 5 with a depending guide-flange 21. I

-. Mounted upon thespindle 6 forindependent revoluble movement is the hub or sleeve 22 of a'n-orbital arm 23, saidsleeve or hub 22 ward through the slot. 7 in the base,-.where it carries a radial arm 24, secured in place by means or a set-screw 25. This radial arm,

.which is arranged in the vertical plane of the orbital arm, is provided with' a pin 26, en-

gagedwith a slide or traveler 27, mounted for reciprocatory movement in a parallelsided guide 28 29, of which the partsare disposed upoh opposite sides of the'slot -7 and 'are secured to the under side of thelbase.

The slide or traveler is adapted to move from A one of the members of the guide across the slot 7 and into the other member of the guide during the rotary movement of the orbital arm 23 around the spindle 6 as its axis, and

in Fig. 2 will cause the spindle 6 to move westward, and thereby cause the movement of an earth-globe, supported by said orbital arm, to travel in an elliptical path.

Fixed to the spindle'thand hence held in a stationary position with relation to the supporting-arm, is a gear 30, a set-screw 31 being employed to facilitate the attachment of said gear, and mounted, preferably, in depending bearings 32 and 33 on 'the orbital arm is an operating-spindle 3l 'havinga pinion 35, which meshes with the gear 30 whereby as the orbital afin 23 swings aroun the carrying-spindle 6 rotary motion is communi cated to the operating-spindle 34. A'dnstguard 36, which is mounted upon the inner end of the orbital arm, serves the double function of protecting the. gearing and of supporting the pulley 20, and theprbital arm is preferably provided with a depending guardflange 37' for a-purpose analogous to that described in connection with the,snn-globe-sup-,

porting plate; Near its outer end the orbi-' tal arm is provided with an enlargement,

' forming a sleeve 38, in which is secured a tubular or hollow bearing 39, and within this tubular bearing is mounted an earth-globe: carrying spindle 40, provided at its lower end 7 with a gear -11, with which meshes apinion 4:2, carried by the operating-spindle 34. To

1 bearing 39 is a sleeve 48, forming a hollow or tubular spindle, to the lower end of which is fixed a gear 4-9, which also meshes with a 'pinion l2 from the opposite side of the gear 41, whereby during the movement of the operatiug-spindle the gears 4:1 and 49' are rotated in opposite directions or for a purpose herein-. after explained; Said sleeve 48 carries a pulley 50, which is connected by a belt, 51 with a pulley 52 on an earth-globe spindle 53,

ass i whereby rotary motion inaybe communicated from the operating-spindle-34 through the intermeshing gears 42 and 49' to the sleeve 48, and thence through the, belt-gearing to the earth-globe: spindle, while rotary. motion in the opposite direction is communicated from the same spindle 34 through the gears 42 and Y 41 to the spindle 40 to cause rotation-of the earth-globe-carrying. plate 44; in a direction opposite to that of the'earth-globe spindle. The means for demonstrating-the phenomaxis of the earth-globe 54, whereby said incliuation may be changed to illustrate the effect which would berproduced thereby upon thes'easons, are substantially identical with means for a similar purpose shown and described in my former patent above mentioned, and include a flexible earthglobe spindle having an upper section 53, c

at different inclinations around the main section of theearth-glohe spindle, and aspjndle 57, mounted toslide upon the upper earthglobe-spindle section and adapted to fit in earth-glohe-spindle section in anyone of a plurality of positions. In the construction illustrated, however, the parts are so related that when the upper earth-globespindle sec tion is in its normal position, whereby the axis of the earth-globe is ,inclined in the proper direction andcorrect angle toward the north, the center of the earth-globe is directly over the center of the earth globe'carrying spindle l0. In the construction illustrated in my former patent above named the-center of the earth-globe was located south of the earth-globe-carrying spindle for the purpose of illustrating theiarrangement of the'sunglobe in the northern focus of the earths ortration ofthe location of the sun-globe in the northern focus of the earths orbit is accom-' plished by disposing the sun-globe spindle in ens-dependent upon the inclination of the etther of said seatstomaintain said upper bit, but in the present construction the illusheated by a knuckle-joint with the lower or main section, said angularly movable section having the t too IIO

a position north of the axis of movement of the orbital arm is a collar 58, which is keyed to said sleeve to cause simultaneous rotation thereof or, in other. words, to allow independent axial slidthe collar. In the construction illustrated radial pins or screws 59 project from the collar mounted for axial sliding movement u pen the sleeve -i8 is a thimble .61, having a swivel connection with the collar 58, by means of pins or screws 62, fitting in an annular groove 63, formed in the outer side of the collar. collar carries the moon-globe-supporting arm 6 t, to the extremity of which :is aflixed the into longitudinal slots 60 in the sleeve. Also- The Mounted to slide-axially upon the sleeve 48 r ing movement of the collar while adapting the sleeve to communicate rotary motion to I one,

moon-globe 6.5;,and'it will be understoodfrom t e foregoing description that by communii eating reciprocate-r? motion to, the thimble 6,1" thecollar 58, with themoon-globe s'upportin gk arm, will' be correspondingly reciprocated;

while'rotary motiontothe collar'nmaybecoun municated from the sleeve 48','which=is-the ineans for commiinicating rotarygjmtion to the earth-globe spindle. :7. I

,The means which I havefLliistrated-in the drawings for communicating .rec'iprocatory operates in a slot 69, formed in a vertical guide 70, which rises from a dnst cap or guard "Z1, carriedby the orbital arm to :inclose the crank and adjacent gears; This combined reciprocatory and rotary movement of the. moon-globe-cariying collar 58' produces the orbitalmovement of the moon-globe; around the earth globeand at the same time the in- 'clination ofth'e plane of the moon-globe orbit to tj1at ofihe ecliptic; such inclination being about-five degrees. In addition, however, to.

" globe axis.

the above-described-movements of the moonglo'be it has an axially-tilting movement con sisting in an inclination of thenpper end of its'axis-toward thejearth-globe at one portion of the jmoons orbitand an opposite move ment, or away from; the earth, at another portion of its orbit. Toaccomplish this tilting movement, I employ a rocker 72, consisting of :a rim or band which encircles theupper. portion of the collar 58 and is provided with fulcrum-pins consisting of the guide-screws 59', andsaidrocker being sufliciently loose upon .the collar'to allow a tilting movementdownward for illustrating an axial inclination of about one and one-half degrees of'the moon- This rocker is provided with a radialstem 73, upon which is fitted a socket 74. at't -he inner end of the moon-globe-supfporting 'arm'64.- Also thesI'eev'eefS is provided with a longitudfiilal cam.75, formed, in

the construction illustrated, bylongitudi nail y channelingthe sleeve and providing the channel with-an inclined or beveled floor, and carriedby the rocker in operative relation. with this cam is a finger 76. Thus during the downward movement of the moon-globe' car ryingcollar the finger 76 is forded outward by the cam 75 to causean upward-swinging movement of the moon-globe-snpporting arm, and hencethe tilting of thenpper end of the moon-globe axis toward the earth, whereas during the movement of the moon-globe-carrying collar in an upward position the reverse operation is produced to cause the tilting of the moon-globe axis in a direction away from'the earth. p

The suns axis is-inclined at-an angle of about eight degrees toward that partofthe .earths orbit which the earth occupies in Sep 'tember, and in order that the center of the sun-globe shall be directly abovea line drawn June-to the 21st of December, said line passing directly through the center of movement :of'theorbital arm when the parts are in the vgiio'sitiims indicatedjin Fig. 1 and-in full lines i'nfFig; V2,.the sunrglobe-supporting plate is guzestpgardfrern saidlineconnecting the June and; December pbintsjofthe earths orbit,

12 to dispose the center'ofthe sun-globe directly over the line connecting the June and December points of the earths orbit, and hence accurately locates the sun-globe in the northern focus of said orbit. r

ing illustrated in a former patent above menplished allot the necessary movements of thethree celestial bodiesrepresented. The sunm ovement-nponitsaxis, the latter motion be- .ing due to the operation of the pulley 20,

abontthe spindle (3 as 'a center. Furthermore, said swinging movement of the orbital arm causes the shifting of its axis in a direction transverse to the majoraxis of the ellipse said elliptical motion. Furthermore,the-rev: olution of the gears 41-. and 19- in opposite directions, the latter beingbackward while carrying plate'e l to swingthrough one complete backward rotationwhile the orbital tion, and hence the inclination of the art-hs' axis remains-constant or uniform, or, 1n other itself throughout the orbital movem'entof the earth-globe. ever, receives a forward rotation to produce thedi'urnal revolution of the earth-globe, its direction of rotation corresponding with that of the earth, 3 I In practice I prefer to construct the gear 49 and hence it follows. that when the orbital and the gear 4i, which occupies the earth- 'globe-carrying spindle, has completed. one backward rotationthe gear 49 has not quite completed one revolution andhence the moon-globe has not quite completed one f0rward revolution'around the earthglobe. Thus at every revolution of the orbital arm the moofirglobe will fall a little more behind movement of the earthsorbitand the moons entendedfrom; thespindle 6 in a directioh' of the spindle 12'sIufficient1y far toward'that From the above description it will be seen that I have dispensed with much of the geartioned and at the same time have accom- I globe receivesran orbital and-also arotary caused by the rotation of theorbital arm 23 or orbit described-by the earth to produce arm23 describes one complete forward rota-- The earth-globe spindle, how-.

in itspath around the earth to illustrate the onlthe earth "s orbit from about th'e 2l st of 1- part of the orbitwhich the earth occupies be tweenthe 15thand th of January. This March to'allow the inclination of the spindle too the form or is forward, causes the earth-globewords, theearths axi-s'remains parallelwith fr z'o .withone or two teeth more than the gear 41,

arm has completed one forwardcrevolution .globe spindle 53 for the reason that while the former carries the earth-globe and by its linear movement determines the orbitalmovement of the earth-globe the latter constitutes the axial support-of the earth-globe and controls the axial movement and position thereof.

hen the orbital arm 33 is in the position shown in Fig. 1 and the position shown in full lines in Fig. 2, the orbital arm 23 and the snpporting-arm 5 are in alinement, or both -are in the same vertical plane; but when the orbital arm 23 swings forward toward the position shown by the dotted line in Fig. 2 .the supporting-arm 5 swings backward and westward toward its position shown in dotted line and near the end of slot 7 in Fig. 2. The arm 23 will be at right angles to arm 5 slightly before the ceuterof theearth-globe has passed througlr a quadrant of its orbit'or the falling back of arm 5 has caused arm 23 to move more slowly than it would have done had arm 5 re mained stationary. -While arm 23 is movingforward from its position at right angles to :23 and 5 are in the same vertical plane.

arm 5 the last-named arm is swinging slowly back to its first position, so that when the center of the earth-globehas reached the northern end of the major axis of the earths orbit the arm 5 has assumed its first position and arms Thus the movement of arm 5 has caused arm 23 to move more rapidly in the second interval than it would have done had arm 5 remained stationary. For the same reason arm '23 will move more rapidly through the third quadrant and more slowly through the fourth, or.

the earth-globe is caused to move more rapidly in that half of its orbit from September to March than it moves in the half from March to September. In practice it will be understood that various changes in the form, proportion, size, and minor details of construction within the scope of the appended claims maybe resorted to without departing from the spirit or sacrificing any of the advantages of the invention.

Having described my invention, what .I claimis- 1. A tellurian having a swinging orbital or earth-globe-carryin g arm, swinging vibratory mechanism for shifting the axis of said arm in. a direction transverse to the major diameter of the orbit described by the earth-globe and means for connecting said devices, substantially as specified.

2. A tellurian-having a swinging orbital or earth-globe-carryiu g arm a transverselymovable spindle therefor, a reciprocatory traveler, and a swinging connection between the spindle, orbital arm and the traveler for causing vibratory movement of said spindle, substantially as specified.

i 3. A tellnrian having abase, a swinging orbital or earth-globe-carrying arm, a spindle mounted for vibratory movement in. a path transverse to the major diameterofthe earths orbit and adapted to support the said armya fixed guide supported by the base, a traveler mounted in said guide, and an arm carried by the orbital arm and having a pivotalconnection with said traveler, substantially as specified. V y 4. A tellurian hayinga swinging supporting-arm provided with a terminal spindle, an orbital or earth-globe-carrying arm mounted upon'said spindle of the-supporting-arm, and means for causing a vibratory movementozi the supporting-arm duringtheswingingmovement of the orbital arm about its axis, stantially as specified.

5. A tellurian having a swinging supportlug-arm provided with a terminal spindle; an V orbital or earth-globmcarrying arm mounted for swinging movement upon said spindle, a

fixed guide parallel with the major diameter of the earth-globe orbit, a traveler mounted in said guide, and an arm connecting the said orbital arm with the traveler, for causing swinging movementof the supporting-arm, substantially as specified. 7

6. A tellurian having a swinging supporting-arm provided with a terminaLspindle, an

orb'tal or earth-globe-carrying arm mounted upon said spindle of the supporting-arm, means for causing a vibratory movement of the supporting arm during the swinging movement of the orbital arm about its axis, and a sunglobe-carry ing'plate fixed to the spindle of the supporting-arm,substantiallyas specified. v

7. A tellurian having a swinging supporting-arm provided witha terminal spindle and also having a supporting-plate, an orbital or earthglobe-carrying arm mounted upon said spindle of the snpporti ng-arm, means for causing a vibratory movement of the supportingarm during the swinging movementof the orbital-arm about its axis, and a sun-globe spindle mounted upon said plate eccentric ally with relation to the spindle of the supporting-arm, substantially as specified.

8. A tellurian having a swinging supp rting-arm provided with a terminal spindle and also havinga supporting-plate, an orbital or earth-globe carrying arm mounted upon said spindle of the supporting-arm, means for causingavibratory movement of the support ing-arm during the swinging movement of the'orbital arm about its axis, a sun-globe spindle mounted upon said plate eccentrically with relation to the spindle of the supporting-arm,'and means actuated bythe orbital arm for communicating rotary motion to the sun-globe spindle, substantially as specified.

9. A tellurian having a swinging supporting-arm provided with a terminal spindle, an

orbital or earth-globe-carrying arm mounted upon said spindle of the supporting-arm,

I Iii to 'Jmg-arm provided with a terminal spindle, an;

*orbital or earth-globe earnying arm mounted upon said spindle of the supporting arm, means for causing a vibratory movement of the supporting-arm during the swinging movel meht of the orbital arm about its axis, ,a sunglobe-carrying plate andaninclined sunglobe spindle mounted upon said plate and carrying a sun-globe, whereby when the earth-globe is in its summer solstice,'the'cen- "'20 ter of the sun-globe is vertically above the. northern focus ofthe orbit of the earth-globe,

substantially as specified.

*11. A. tellurian having a swinging supporting-arm provided with a terminal spindle, an 2 5 orbital, or earthrglobe-carrying arm mounted upon said, spindle of the supporting arm, means for causing avibratory movement of l the supporting-arm duringtheswinging move-- 'ment of the orbital arm about its axis, asun- 3o*globe=carryiug' plate fixed to said spindle of the supporting-arm and provided with a bearing which is positioned on a line bearing westward 'from'that of the orbital; arm, and a sunglobe spindle mounted'in said bearing'of th plate and inclin'edeastward toward its upper end, substantially as specified.

12. A tellurian having a swinging'supporting arm provided wit-ha terminal spindle, an orbital or earth-globe-carrying arm mounted :4 upon said spjndlejof the supportin'gsarm,

. means for causing a vibratory movement of the supporting-arm durin g the'swinging move ment of the orbital arm about its axis, as'un glqpe-carryingplatefixed tosaid spindle of the support-ing-arm, a sun-globe spindle mounted in a bearing in said plate, pulleys carried respectively by the orbital arm and saidsunglobespindle, and a belttraversing the pol:

leys, substantially as specified.

. 5. 13. A tellurian having aswinging supporting-arm provided with a terminal spindle, an

orbital or earth-globe-carrying arm mounted I upon said spindle of the supporting-arm, means for causing a vibratory movement of f .55 the supporting-arm during the swinging movement of the orbital arm about its axis, asunglobe-carrying plate fixed to said spindle of the supporting-arm, asun-globe spindle mounted in abearing in said plate, earth-globe-oper- 6'0 ating-smechanism including an operatingspindle mounted upon said orbital arm, a gear fixed to said spindle of the supporting-arm 'an'xkmeshing with a pinion on said operatingspindle, a dustguard fixed to the orbital arm to cover said gears, pulleys carried respectively by the sun-globe spindle and said dust guard,aad a beIttraversing the pulleys,'s ub- 1 stantially asspecified.

' .14.- A tellu-riah h 'ving a swinging orbital arm, an operating-spindle mounted upon said 79 arm, means for communicating rotary motion to said spindle, an earth-globe-oarr'yingqspinl .dle mounted upon the orbital arm andconnected with said operating-spindle for rotation in one direction, areciprocatory traveler, 7 5 a swinging connection between the spindle of .saidorbital arm and the traveler, a second spindle concentric with the earth-globe=carryin g spindle connected wit-l1 the operating-spin die for rotation in the .opposite direction, an 80 'earth-globe-carrying. plate carried by said earth-globe-carrying spindle, and an earthglobe spindle mounted upon the earth-globeca'rrying plateand operativelyconnected with e said second spindle, substantially as specified. 15. A tellurian having a swinging orbital arm; an operating-spindle mounted upon said arm; means for communicating rotary motion to said spindle, an'earth-globecarrying plate,

an earth-globe spindle mounted upon said.

plate, concentric spindles respectively connected with said plate and the earth-globe spindle and connected with said operating. spindle for simultaneousrotation in opposite directions, a reciprocatory traveler', and a'95 swinging connectionifbetween the spindle of the orbital arm and the traveler, substantially 'asspeci-fied. I a

16. Atellurian 'ng'afswinging orbital arm, an (appraising-spindle mounted upon said mo arm, means'fdr oom-municating rotary motion c; to. said spind e, a 'reciprocatory traveler, and

a swinging connectionbetween the spindle of the orbital arm and the traveler; an earthglobescarrying plate,- an earth-globe spindle mounted upon said plate, concentric spindles con-nected respectively with said plate and the earth-globe spindle and provided with gears, and 'a pinion carried by the operating-spindle and meshing at opposite sides withsaid gears, [1 to for'communicating rotary motion inoppositev directions to said concentric pindles, substantiallly as specified;

l7. jA tellurian having a swinging orbital arm, an operating-spindle. mounted upon said I I 5 arm, means for communicatingrot-ary motion to said spindle, an earth-globe-ca'rrying plate, an earth-globe spindle mounted upon said plate, an earth-globe; carrying spindle to which said plate is fixed, and"which is operatzo tively connected 'withthe operating-spindle for maintaining a uniform direction of in; clination of. the axis-of the earth-globe, a sec ond spindle also actuated by said operatingspindle, and operatively connected with the t2 5 earthrglobe spindle 'for'eommunicating diurnal revolution to the'lattena moon-'fglobe-l carrying member feathered upon said second spindle for movement parallel with the axis thereof, and means for imparting reciproca- 13o tory movement to said member, substantially I as specified.

J formaintaining auniform direction of inclination of the axis of the earth-globe, a second spindle also actuated by said operating-spindle, and operatively con nected with the earthglobe spindle for communicating diurnal revolution to the latter, a ,moon-globe-carrying collar feathered upon said second spindle for movement parallel with the axisthereof, and

means actuated by the operating-spindle for;

reciprocating said collar,

substantially as specified.

arm, an operating-spindle mounted upon said arm, means for communicating rotary motion.

to said spiudle,an carth-globe-carrying plate, an earth-globe spindle mounted upon said plate, an earthglobe-carrying spindle to which said plate is fixed, and which is operatively connected with tlie'operating-spindle for maintaining a uniform direction of incli nation of the axis of the earth-globe, a second spindle also actuated by said operating-spindle, and operatively connected with the earth globe spindle for communicating diurnal revolution to the latter, a moon globe -carrying collar feathered upon said second spindle for movement parallel with the axis thereof, and means, including a crank actuated by the operating-spindle, and a pitmanbetween said crank and the collar, for reciprocating the collar upon said second spindle, substantially as specified.

20. A tellurian having a swinging orbital arm, an operating-spindle mounted upon said arm, means for communicating rotary motion to said spindle, an earth-globe-carryingplate, an earth --globe spindle mounted upon said plate, an earth-globe -carrying spindle to which said plate is fixed, and which is operatively connected with the operating-spindle for maintaining a uniform direction of inclination of the axis of the'earth-globe, a second spindle also actuated by said operating-spindle, and operatively connected with the earth- 7 globe spindle for comm uuicating diurnal revolution to the latter, a moon-globe-carrying collar feathered uponssaid secondspindle for movement parallel with the axis thereof, a sleeve having a swivel connection with said collar and provided with a wrist-pin, acrank actuated by the operating-spindle, and a pitman connecting said crank with the wristpin, substantially as specified.

21. A tellurian having a swinging orbital arm, an operating-spindle mounted upon said arm, means for communicating rotary motion to said spindle, an carth-globe-carrying plate, an earth-globe spindle mounted upon said 19. A tellurian having a swinging orbital pin, and affixed guide carried by the orbital arm for maintaining said sleeveina fixed po-.

.sition withrelation to the orbital a'rm',fsub "stantially as specified. I

- ,22. Atellurian having'a swinging" orbital arm, an operating-spindle mounted uponsaid arm, means for com m unicating rotary motion to said spindle, an earth-globe-carrying plate, an earth-globe spindle mounted upon said plate; an earth-globe-carrying spindle to a which said plate is fixed, and which is opera- -tively connected with the operating-spindle for maint'aininga uniform direction ofinclination of the axis of the earth-globe, a second spindle also actuated by said operating-spin- Y dle, and operatively connected with the earth-- globe spindle for communicating diurnal revolution to the latter, a moon-globe-carrying collar feathered u pon said second spindle for said second spindle, substantially as specified.

23. A tellurian having a swinging orbital arm an operating-spindle mounted upon said arm, means for communicating rotary motion I movement parallel with the axis thereof, a t

to said spindle, an earth-globe-carryling plate, 7 an earth-globe spindle mounted upon said plate, an. earth -.globe-carrying spindle to which said plate is fixed, and which is opera tively connected with the operating-spindle for maintaining a uniform directionof-inclination of the axis of the earth-globe, a second spindle also actuated by said operating-spin? die, and operativel, connected with the earthglobe spindle for communicating diurnal revolution to the latter, a moon-globe-carrying collar mounted upon said second spindle for movement parallel with the axis thereof,

means actuated by said operating-spindle for reciprocating said collar, a moon-globe-supporting arm pivotally mounted upon said'c'oh lar', and means for oscillating said supporting-v arm, substantially as specified.

24. A telluriau having a swinging orbital arm, an operatingspindle mounted upon said arm, means for cominunicating'rotary motion to saidspindle an earth globe canty ing plate, an earth"- globe spindlemounted upon s'aid plate, ,an earth-globe carrying spindle to which'said plate isfixed, and which is operativelyconnected with the operatingspindle for maintaining a uniform direction .of inclination of the axis of the earth-globe, a second spindle also actuated by said operating-spindle, and operatively connected with the earth-globe spindle for communicatingdiurnalrevolution to the latter, a moon-globecarry-ing collarqmounted uponsaid second spindle for movement parallel-withthe axis thereof, means actuated by said operatingwhichsaid plate is fixed, 'and'wh-iclr'is open spindle for reciprocating said collar, a rocker mounted upon'said collar, .means fortilting said rocker during the reciprocatory move- .ment of. said collar, and a moon-globe-sup portingarmv carried by the rocker, substantially'as specified.

25.v A-tellur'ian having a swinging orbital v 1 arm, an operating-spindle mounted upon saidv arm, means for communicating rotary motion to said spindle, an earth-globe-carryin'g plate,

an eafith-globe spindle mounted upon said plate, an earth-globe-c'arrying spindle to atively connected with the operating-spindle for maintaining a'uniform direction of inclinationjof the axis of' the earth-globe, a second spindle also actuated by said operating 7 spindle, and operativelycon'nected with the earth globe spindle for communicating diurnal revolution to the latter, a moon-globecarrying. collar mounted upon said second spindle for movement parallel with the axis thereof, means actuated by. said operatingspindle for reciprocatingsaid collar, a rocker mounted upon said collar, a finger carried by the rocker and arranged in operative relation with a cam which occupies a fixed position with relation to the reciprocatory movement of the collar, and-a moon-globe-supporting arm carried by the rocker, substantially as specified;

26. A tellurian having a swinging orbital arm, an operating-spindle mounted upon said, arm, means for communicating rotary mo- 1 tion to said-spindle, an earth-globe-carrying plate, an earth-globe spindle mounted uponsaid plate, an earth-globe-carrying spindle to which, said plate is fixed, and which is operatively connected with theloperatingspindle for maiutaininga uniform: direction of inclination of; the axis of: the earth-globe, a ;sec

- ond spindlealsoactuatedbysaid operating spindle, and -operatively connected with the earth-globe spindle 'for communicating di- --'urna'l revolution toithe 1aaer,a moon-globecarrying collar mounted "upon said second spindlefbrmovement parallel with the axis thereof, means. actuated bysaid operating spindle for reciprocating saidfc'ollar, arocker 'IDOUIIlSBd IJPOH said collar and having a finger, a cam on said'second spindletraversed by the finger, for tilting the rocker duringthe reciprocatory motement fo f the collar, and a moon globe supportingarm carric by the], rocker, substantiallyas' specified.

v 27'. A tellurian having a swinging dbithllffo, 7

arm, an operating-spindlemountcd upon said;

..arm, means for com municating rotary motion to said spindle, an earth-globe-carrying plate,

an earth-globe spindle. mounted u pon' said;

plate, an earth-globe carryin'g "spindle to which said plate is fixed, and whichis operatively connected with theeperating-s'pindleformaintaining a'unifo'rm' direction ofpinclination of the axis of the earth-globe, alsecond spindle.

also actuated, by.saidoperating-spindle, and so operatively connected with the earthglobespindle for communicating diurnal revolution to the latter, a moon-globe carrying collar mounted upon said second-spindle for move-' ment parallel with the axis thereof, means ac-f. 8 5

tuated bysaid' operating-spindle for reciprocatingsaid collar, a rocker mounted upon said, collar, means for-tilting therocker during the reciprocatory movement of the collar, a stud projecting radiallyifrom the rocker, and a 9'9 moon globe supporting spindle having socket engagedwith said stud, substantially as specified. l

28. A; telluria'n having an orbitalearthglobe-'carrying arm, and means for causing'a 9 5 arm, an operating-spindle mounted upon said arm, means for communicating rotary motion to said spindle, a reciprocatory traveler having swinging connection with the spindle of 7 said orbital arm, an earthglobe-carrying Ir 5 plate, an earth-globe spindle'mounted upon said plate, and concentric spindles respectively connected with said plate and the earth: globe spindle and actuated by said operating- .spindle for simultaneous rotation in opposite no pdiitections and with unequal-speed tocause 'retrogression of the moons nodes, substantially as specified.

31. A tcllurian having a swinging orbital .arm, anoperating-spindle mounted upon said :2 5

arm, means for communicating rotary motion ,to said spindle, a reciprocatory traveler having swingingconnection with the spindle of isaid' orbital arm, an earth-globe-carrying plate, an

earth-globe spindle mounted upon said plate,'.

concentric spindles. respectively connected with said plate and the earth-globe spindle,

30.--A tell urian having a swingingorbital no. I,

a motion-imparting gear carried by the opersiting-spindle, and motion-readying gems carried respectively by said concentric spindles and meshing with the motion-imparting gear at opposite sides, said motion-receiving gai's having a difierenhial number of teeth, substantially as sgecifiedv- In tsbimony that I ciaini the foregoing as my own I have hereto afi'lxed my signature in the presence of two witnesses.

ALBERT M. BAKER.

Witnesses: v. x

A. J. Finfi' N. D. BENTLEY. 

